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minimacplus/firmware/components/tme/musashi/m68kcpu.c

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/* ======================================================================== */
/* ========================= LICENSING & COPYRIGHT ======================== */
/* ======================================================================== */
/*
* MUSASHI
* Version 3.4
*
* A portable Motorola M680x0 processor emulation engine.
* Copyright 1998-2001 Karl Stenerud. All rights reserved.
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
/* ======================================================================== */
/* ================================= NOTES ================================ */
/* ======================================================================== */
/* ======================================================================== */
/* ================================ INCLUDES ============================== */
/* ======================================================================== */
#include "m68kops.h"
#include "m68kcpu.h"
/* ======================================================================== */
/* ================================= DATA ================================= */
/* ======================================================================== */
int m68ki_initial_cycles;
int m68ki_remaining_cycles = 0; /* Number of clocks remaining */
uint m68ki_tracing = 0;
uint m68ki_address_space;
#ifdef M68K_LOG_ENABLE
char* m68ki_cpu_names[9] =
{
"Invalid CPU",
"M68000",
"M68010",
"Invalid CPU",
"M68EC020"
"Invalid CPU",
"Invalid CPU",
"Invalid CPU",
"M68020"
};
#endif /* M68K_LOG_ENABLE */
/* The CPU core */
m68ki_cpu_core m68ki_cpu = {0};
#if M68K_EMULATE_ADDRESS_ERROR
jmp_buf m68ki_aerr_trap;
#endif /* M68K_EMULATE_ADDRESS_ERROR */
uint m68ki_aerr_address;
uint m68ki_aerr_write_mode;
uint m68ki_aerr_fc;
/* Used by shift & rotate instructions */
const uint8 m68ki_shift_8_table[65] =
{
0x00, 0x80, 0xc0, 0xe0, 0xf0, 0xf8, 0xfc, 0xfe, 0xff, 0xff, 0xff, 0xff,
0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
0xff, 0xff, 0xff, 0xff, 0xff
};
const uint16 m68ki_shift_16_table[65] =
{
0x0000, 0x8000, 0xc000, 0xe000, 0xf000, 0xf800, 0xfc00, 0xfe00, 0xff00,
0xff80, 0xffc0, 0xffe0, 0xfff0, 0xfff8, 0xfffc, 0xfffe, 0xffff, 0xffff,
0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff,
0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff,
0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff,
0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff,
0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff,
0xffff, 0xffff
};
const uint m68ki_shift_32_table[65] =
{
0x00000000, 0x80000000, 0xc0000000, 0xe0000000, 0xf0000000, 0xf8000000,
0xfc000000, 0xfe000000, 0xff000000, 0xff800000, 0xffc00000, 0xffe00000,
0xfff00000, 0xfff80000, 0xfffc0000, 0xfffe0000, 0xffff0000, 0xffff8000,
0xffffc000, 0xffffe000, 0xfffff000, 0xfffff800, 0xfffffc00, 0xfffffe00,
0xffffff00, 0xffffff80, 0xffffffc0, 0xffffffe0, 0xfffffff0, 0xfffffff8,
0xfffffffc, 0xfffffffe, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff,
0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff,
0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff,
0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff,
0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff,
0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff
};
/* Number of clock cycles to use for exception processing.
* I used 4 for any vectors that are undocumented for processing times.
*/
uint8 m68ki_exception_cycle_table[3][256] =
{
{ /* 000 */
4, /* 0: Reset - Initial Stack Pointer */
4, /* 1: Reset - Initial Program Counter */
50, /* 2: Bus Error (unemulated) */
50, /* 3: Address Error (unemulated) */
34, /* 4: Illegal Instruction */
38, /* 5: Divide by Zero -- ASG: changed from 42 */
40, /* 6: CHK -- ASG: chanaged from 44 */
34, /* 7: TRAPV */
34, /* 8: Privilege Violation */
34, /* 9: Trace */
34, /* 10: 1010 */
34, /* 11: 1111 */
4, /* 12: RESERVED */
4, /* 13: Coprocessor Protocol Violation (unemulated) */
4, /* 14: Format Error */
44, /* 15: Uninitialized Interrupt */
4, /* 16: RESERVED */
4, /* 17: RESERVED */
4, /* 18: RESERVED */
4, /* 19: RESERVED */
4, /* 20: RESERVED */
4, /* 21: RESERVED */
4, /* 22: RESERVED */
4, /* 23: RESERVED */
44, /* 24: Spurious Interrupt */
44, /* 25: Level 1 Interrupt Autovector */
44, /* 26: Level 2 Interrupt Autovector */
44, /* 27: Level 3 Interrupt Autovector */
44, /* 28: Level 4 Interrupt Autovector */
44, /* 29: Level 5 Interrupt Autovector */
44, /* 30: Level 6 Interrupt Autovector */
44, /* 31: Level 7 Interrupt Autovector */
34, /* 32: TRAP #0 -- ASG: chanaged from 38 */
34, /* 33: TRAP #1 */
34, /* 34: TRAP #2 */
34, /* 35: TRAP #3 */
34, /* 36: TRAP #4 */
34, /* 37: TRAP #5 */
34, /* 38: TRAP #6 */
34, /* 39: TRAP #7 */
34, /* 40: TRAP #8 */
34, /* 41: TRAP #9 */
34, /* 42: TRAP #10 */
34, /* 43: TRAP #11 */
34, /* 44: TRAP #12 */
34, /* 45: TRAP #13 */
34, /* 46: TRAP #14 */
34, /* 47: TRAP #15 */
4, /* 48: FP Branch or Set on Unknown Condition (unemulated) */
4, /* 49: FP Inexact Result (unemulated) */
4, /* 50: FP Divide by Zero (unemulated) */
4, /* 51: FP Underflow (unemulated) */
4, /* 52: FP Operand Error (unemulated) */
4, /* 53: FP Overflow (unemulated) */
4, /* 54: FP Signaling NAN (unemulated) */
4, /* 55: FP Unimplemented Data Type (unemulated) */
4, /* 56: MMU Configuration Error (unemulated) */
4, /* 57: MMU Illegal Operation Error (unemulated) */
4, /* 58: MMU Access Level Violation Error (unemulated) */
4, /* 59: RESERVED */
4, /* 60: RESERVED */
4, /* 61: RESERVED */
4, /* 62: RESERVED */
4, /* 63: RESERVED */
/* 64-255: User Defined */
4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,
4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,
4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,
4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,
4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,
4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4
},
{ /* 010 */
4, /* 0: Reset - Initial Stack Pointer */
4, /* 1: Reset - Initial Program Counter */
126, /* 2: Bus Error (unemulated) */
126, /* 3: Address Error (unemulated) */
38, /* 4: Illegal Instruction */
44, /* 5: Divide by Zero */
44, /* 6: CHK */
34, /* 7: TRAPV */
38, /* 8: Privilege Violation */
38, /* 9: Trace */
4, /* 10: 1010 */
4, /* 11: 1111 */
4, /* 12: RESERVED */
4, /* 13: Coprocessor Protocol Violation (unemulated) */
4, /* 14: Format Error */
44, /* 15: Uninitialized Interrupt */
4, /* 16: RESERVED */
4, /* 17: RESERVED */
4, /* 18: RESERVED */
4, /* 19: RESERVED */
4, /* 20: RESERVED */
4, /* 21: RESERVED */
4, /* 22: RESERVED */
4, /* 23: RESERVED */
46, /* 24: Spurious Interrupt */
46, /* 25: Level 1 Interrupt Autovector */
46, /* 26: Level 2 Interrupt Autovector */
46, /* 27: Level 3 Interrupt Autovector */
46, /* 28: Level 4 Interrupt Autovector */
46, /* 29: Level 5 Interrupt Autovector */
46, /* 30: Level 6 Interrupt Autovector */
46, /* 31: Level 7 Interrupt Autovector */
38, /* 32: TRAP #0 */
38, /* 33: TRAP #1 */
38, /* 34: TRAP #2 */
38, /* 35: TRAP #3 */
38, /* 36: TRAP #4 */
38, /* 37: TRAP #5 */
38, /* 38: TRAP #6 */
38, /* 39: TRAP #7 */
38, /* 40: TRAP #8 */
38, /* 41: TRAP #9 */
38, /* 42: TRAP #10 */
38, /* 43: TRAP #11 */
38, /* 44: TRAP #12 */
38, /* 45: TRAP #13 */
38, /* 46: TRAP #14 */
38, /* 47: TRAP #15 */
4, /* 48: FP Branch or Set on Unknown Condition (unemulated) */
4, /* 49: FP Inexact Result (unemulated) */
4, /* 50: FP Divide by Zero (unemulated) */
4, /* 51: FP Underflow (unemulated) */
4, /* 52: FP Operand Error (unemulated) */
4, /* 53: FP Overflow (unemulated) */
4, /* 54: FP Signaling NAN (unemulated) */
4, /* 55: FP Unimplemented Data Type (unemulated) */
4, /* 56: MMU Configuration Error (unemulated) */
4, /* 57: MMU Illegal Operation Error (unemulated) */
4, /* 58: MMU Access Level Violation Error (unemulated) */
4, /* 59: RESERVED */
4, /* 60: RESERVED */
4, /* 61: RESERVED */
4, /* 62: RESERVED */
4, /* 63: RESERVED */
/* 64-255: User Defined */
4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,
4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,
4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,
4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,
4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,
4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4
},
{ /* 020 */
4, /* 0: Reset - Initial Stack Pointer */
4, /* 1: Reset - Initial Program Counter */
50, /* 2: Bus Error (unemulated) */
50, /* 3: Address Error (unemulated) */
20, /* 4: Illegal Instruction */
38, /* 5: Divide by Zero */
40, /* 6: CHK */
20, /* 7: TRAPV */
34, /* 8: Privilege Violation */
25, /* 9: Trace */
20, /* 10: 1010 */
20, /* 11: 1111 */
4, /* 12: RESERVED */
4, /* 13: Coprocessor Protocol Violation (unemulated) */
4, /* 14: Format Error */
30, /* 15: Uninitialized Interrupt */
4, /* 16: RESERVED */
4, /* 17: RESERVED */
4, /* 18: RESERVED */
4, /* 19: RESERVED */
4, /* 20: RESERVED */
4, /* 21: RESERVED */
4, /* 22: RESERVED */
4, /* 23: RESERVED */
30, /* 24: Spurious Interrupt */
30, /* 25: Level 1 Interrupt Autovector */
30, /* 26: Level 2 Interrupt Autovector */
30, /* 27: Level 3 Interrupt Autovector */
30, /* 28: Level 4 Interrupt Autovector */
30, /* 29: Level 5 Interrupt Autovector */
30, /* 30: Level 6 Interrupt Autovector */
30, /* 31: Level 7 Interrupt Autovector */
20, /* 32: TRAP #0 */
20, /* 33: TRAP #1 */
20, /* 34: TRAP #2 */
20, /* 35: TRAP #3 */
20, /* 36: TRAP #4 */
20, /* 37: TRAP #5 */
20, /* 38: TRAP #6 */
20, /* 39: TRAP #7 */
20, /* 40: TRAP #8 */
20, /* 41: TRAP #9 */
20, /* 42: TRAP #10 */
20, /* 43: TRAP #11 */
20, /* 44: TRAP #12 */
20, /* 45: TRAP #13 */
20, /* 46: TRAP #14 */
20, /* 47: TRAP #15 */
4, /* 48: FP Branch or Set on Unknown Condition (unemulated) */
4, /* 49: FP Inexact Result (unemulated) */
4, /* 50: FP Divide by Zero (unemulated) */
4, /* 51: FP Underflow (unemulated) */
4, /* 52: FP Operand Error (unemulated) */
4, /* 53: FP Overflow (unemulated) */
4, /* 54: FP Signaling NAN (unemulated) */
4, /* 55: FP Unimplemented Data Type (unemulated) */
4, /* 56: MMU Configuration Error (unemulated) */
4, /* 57: MMU Illegal Operation Error (unemulated) */
4, /* 58: MMU Access Level Violation Error (unemulated) */
4, /* 59: RESERVED */
4, /* 60: RESERVED */
4, /* 61: RESERVED */
4, /* 62: RESERVED */
4, /* 63: RESERVED */
/* 64-255: User Defined */
4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,
4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,
4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,
4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,
4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,
4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4
}
};
uint8 m68ki_ea_idx_cycle_table[64] =
{
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, /* ..01.000 no memory indirect, base NULL */
5, /* ..01..01 memory indirect, base NULL, outer NULL */
7, /* ..01..10 memory indirect, base NULL, outer 16 */
7, /* ..01..11 memory indirect, base NULL, outer 32 */
0, 5, 7, 7, 0, 5, 7, 7, 0, 5, 7, 7,
2, /* ..10.000 no memory indirect, base 16 */
7, /* ..10..01 memory indirect, base 16, outer NULL */
9, /* ..10..10 memory indirect, base 16, outer 16 */
9, /* ..10..11 memory indirect, base 16, outer 32 */
0, 7, 9, 9, 0, 7, 9, 9, 0, 7, 9, 9,
6, /* ..11.000 no memory indirect, base 32 */
11, /* ..11..01 memory indirect, base 32, outer NULL */
13, /* ..11..10 memory indirect, base 32, outer 16 */
13, /* ..11..11 memory indirect, base 32, outer 32 */
0, 11, 13, 13, 0, 11, 13, 13, 0, 11, 13, 13
};
/* ======================================================================== */
/* =============================== CALLBACKS ============================== */
/* ======================================================================== */
/* Default callbacks used if the callback hasn't been set yet, or if the
* callback is set to NULL
*/
/* Interrupt acknowledge */
static int default_int_ack_callback_data;
static int default_int_ack_callback(int int_level)
{
default_int_ack_callback_data = int_level;
CPU_INT_LEVEL = 0;
return M68K_INT_ACK_AUTOVECTOR;
}
/* Breakpoint acknowledge */
static unsigned int default_bkpt_ack_callback_data;
static void default_bkpt_ack_callback(unsigned int data)
{
default_bkpt_ack_callback_data = data;
}
/* Called when a reset instruction is executed */
static void default_reset_instr_callback(void)
{
}
/* Called when the program counter changed by a large value */
static unsigned int default_pc_changed_callback_data;
static void default_pc_changed_callback(unsigned int new_pc)
{
default_pc_changed_callback_data = new_pc;
}
/* Called every time there's bus activity (read/write to/from memory */
static unsigned int default_set_fc_callback_data;
static void default_set_fc_callback(unsigned int new_fc)
{
default_set_fc_callback_data = new_fc;
}
/* Called every instruction cycle prior to execution */
static void default_instr_hook_callback(void)
{
}
#if M68K_EMULATE_ADDRESS_ERROR
#include <setjmp.h>
jmp_buf m68ki_aerr_trap;
#endif /* M68K_EMULATE_ADDRESS_ERROR */
/* ======================================================================== */
/* ================================= API ================================== */
/* ======================================================================== */
/* Access the internals of the CPU */
unsigned int m68k_get_reg(void* context, m68k_register_t regnum)
{
m68ki_cpu_core* cpu = context != NULL ?(m68ki_cpu_core*)context : &m68ki_cpu;
switch(regnum)
{
case M68K_REG_D0: return cpu->dar[0];
case M68K_REG_D1: return cpu->dar[1];
case M68K_REG_D2: return cpu->dar[2];
case M68K_REG_D3: return cpu->dar[3];
case M68K_REG_D4: return cpu->dar[4];
case M68K_REG_D5: return cpu->dar[5];
case M68K_REG_D6: return cpu->dar[6];
case M68K_REG_D7: return cpu->dar[7];
case M68K_REG_A0: return cpu->dar[8];
case M68K_REG_A1: return cpu->dar[9];
case M68K_REG_A2: return cpu->dar[10];
case M68K_REG_A3: return cpu->dar[11];
case M68K_REG_A4: return cpu->dar[12];
case M68K_REG_A5: return cpu->dar[13];
case M68K_REG_A6: return cpu->dar[14];
case M68K_REG_A7: return cpu->dar[15];
case M68K_REG_PC: return MASK_OUT_ABOVE_32(cpu->pc);
case M68K_REG_SR: return cpu->t1_flag |
cpu->t0_flag |
(cpu->s_flag << 11) |
(cpu->m_flag << 11) |
cpu->int_mask |
((cpu->x_flag & XFLAG_SET) >> 4) |
((cpu->n_flag & NFLAG_SET) >> 4) |
((!cpu->not_z_flag) << 2) |
((cpu->v_flag & VFLAG_SET) >> 6) |
((cpu->c_flag & CFLAG_SET) >> 8);
case M68K_REG_SP: return cpu->dar[15];
case M68K_REG_USP: return cpu->s_flag ? cpu->sp[0] : cpu->dar[15];
case M68K_REG_ISP: return cpu->s_flag && !cpu->m_flag ? cpu->dar[15] : cpu->sp[4];
case M68K_REG_MSP: return cpu->s_flag && cpu->m_flag ? cpu->dar[15] : cpu->sp[6];
case M68K_REG_SFC: return cpu->sfc;
case M68K_REG_DFC: return cpu->dfc;
case M68K_REG_VBR: return cpu->vbr;
case M68K_REG_CACR: return cpu->cacr;
case M68K_REG_CAAR: return cpu->caar;
case M68K_REG_PREF_ADDR: return cpu->pref_addr;
case M68K_REG_PREF_DATA: return cpu->pref_data;
case M68K_REG_PPC: return MASK_OUT_ABOVE_32(cpu->ppc);
case M68K_REG_IR: return cpu->ir;
case M68K_REG_CPU_TYPE:
switch(cpu->cpu_type)
{
case CPU_TYPE_000: return (unsigned int)M68K_CPU_TYPE_68000;
case CPU_TYPE_010: return (unsigned int)M68K_CPU_TYPE_68010;
case CPU_TYPE_EC020: return (unsigned int)M68K_CPU_TYPE_68EC020;
case CPU_TYPE_020: return (unsigned int)M68K_CPU_TYPE_68020;
}
return M68K_CPU_TYPE_INVALID;
default: return 0;
}
return 0;
}
void m68k_set_reg(m68k_register_t regnum, unsigned int value)
{
switch(regnum)
{
case M68K_REG_D0: REG_D[0] = MASK_OUT_ABOVE_32(value); return;
case M68K_REG_D1: REG_D[1] = MASK_OUT_ABOVE_32(value); return;
case M68K_REG_D2: REG_D[2] = MASK_OUT_ABOVE_32(value); return;
case M68K_REG_D3: REG_D[3] = MASK_OUT_ABOVE_32(value); return;
case M68K_REG_D4: REG_D[4] = MASK_OUT_ABOVE_32(value); return;
case M68K_REG_D5: REG_D[5] = MASK_OUT_ABOVE_32(value); return;
case M68K_REG_D6: REG_D[6] = MASK_OUT_ABOVE_32(value); return;
case M68K_REG_D7: REG_D[7] = MASK_OUT_ABOVE_32(value); return;
case M68K_REG_A0: REG_A[0] = MASK_OUT_ABOVE_32(value); return;
case M68K_REG_A1: REG_A[1] = MASK_OUT_ABOVE_32(value); return;
case M68K_REG_A2: REG_A[2] = MASK_OUT_ABOVE_32(value); return;
case M68K_REG_A3: REG_A[3] = MASK_OUT_ABOVE_32(value); return;
case M68K_REG_A4: REG_A[4] = MASK_OUT_ABOVE_32(value); return;
case M68K_REG_A5: REG_A[5] = MASK_OUT_ABOVE_32(value); return;
case M68K_REG_A6: REG_A[6] = MASK_OUT_ABOVE_32(value); return;
case M68K_REG_A7: REG_A[7] = MASK_OUT_ABOVE_32(value); return;
case M68K_REG_PC: m68ki_jump(MASK_OUT_ABOVE_32(value)); return;
case M68K_REG_SR: m68ki_set_sr(value); return;
case M68K_REG_SP: REG_SP = MASK_OUT_ABOVE_32(value); return;
case M68K_REG_USP: if(FLAG_S)
REG_USP = MASK_OUT_ABOVE_32(value);
else
REG_SP = MASK_OUT_ABOVE_32(value);
return;
case M68K_REG_ISP: if(FLAG_S && !FLAG_M)
REG_SP = MASK_OUT_ABOVE_32(value);
else
REG_ISP = MASK_OUT_ABOVE_32(value);
return;
case M68K_REG_MSP: if(FLAG_S && FLAG_M)
REG_SP = MASK_OUT_ABOVE_32(value);
else
REG_MSP = MASK_OUT_ABOVE_32(value);
return;
case M68K_REG_VBR: REG_VBR = MASK_OUT_ABOVE_32(value); return;
case M68K_REG_SFC: REG_SFC = value & 7; return;
case M68K_REG_DFC: REG_DFC = value & 7; return;
case M68K_REG_CACR: REG_CACR = MASK_OUT_ABOVE_32(value); return;
case M68K_REG_CAAR: REG_CAAR = MASK_OUT_ABOVE_32(value); return;
case M68K_REG_PPC: REG_PPC = MASK_OUT_ABOVE_32(value); return;
case M68K_REG_IR: REG_IR = MASK_OUT_ABOVE_16(value); return;
case M68K_REG_CPU_TYPE: m68k_set_cpu_type(value); return;
default: return;
}
}
/* Set the callbacks */
void m68k_set_int_ack_callback(int (*callback)(int int_level))
{
CALLBACK_INT_ACK = callback ? callback : default_int_ack_callback;
}
void m68k_set_bkpt_ack_callback(void (*callback)(unsigned int data))
{
CALLBACK_BKPT_ACK = callback ? callback : default_bkpt_ack_callback;
}
void m68k_set_reset_instr_callback(void (*callback)(void))
{
CALLBACK_RESET_INSTR = callback ? callback : default_reset_instr_callback;
}
void m68k_set_pc_changed_callback(void (*callback)(unsigned int new_pc))
{
CALLBACK_PC_CHANGED = callback ? callback : default_pc_changed_callback;
}
void m68k_set_fc_callback(void (*callback)(unsigned int new_fc))
{
CALLBACK_SET_FC = callback ? callback : default_set_fc_callback;
}
void m68k_set_instr_hook_callback(void (*callback)(void))
{
CALLBACK_INSTR_HOOK = callback ? callback : default_instr_hook_callback;
}
#include <stdio.h>
/* Set the CPU type. */
void m68k_set_cpu_type(unsigned int cpu_type)
{
switch(cpu_type)
{
case M68K_CPU_TYPE_68000:
CPU_TYPE = CPU_TYPE_000;
CPU_ADDRESS_MASK = 0x00ffffff;
CPU_SR_MASK = 0xa71f; /* T1 -- S -- -- I2 I1 I0 -- -- -- X N Z V C */
CYC_INSTRUCTION = m68ki_cycles[0];
CYC_EXCEPTION = m68ki_exception_cycle_table[0];
CYC_BCC_NOTAKE_B = -2;
CYC_BCC_NOTAKE_W = 2;
CYC_DBCC_F_NOEXP = -2;
CYC_DBCC_F_EXP = 2;
CYC_SCC_R_TRUE = 2;
CYC_MOVEM_W = 2;
CYC_MOVEM_L = 3;
CYC_SHIFT = 1;
CYC_RESET = 132;
return;
case M68K_CPU_TYPE_68010:
CPU_TYPE = CPU_TYPE_010;
CPU_ADDRESS_MASK = 0x00ffffff;
CPU_SR_MASK = 0xa71f; /* T1 -- S -- -- I2 I1 I0 -- -- -- X N Z V C */
CYC_INSTRUCTION = m68ki_cycles[1];
CYC_EXCEPTION = m68ki_exception_cycle_table[1];
CYC_BCC_NOTAKE_B = -4;
CYC_BCC_NOTAKE_W = 0;
CYC_DBCC_F_NOEXP = 0;
CYC_DBCC_F_EXP = 6;
CYC_SCC_R_TRUE = 0;
CYC_MOVEM_W = 2;
CYC_MOVEM_L = 3;
CYC_SHIFT = 1;
CYC_RESET = 130;
return;
case M68K_CPU_TYPE_68EC020:
CPU_TYPE = CPU_TYPE_EC020;
CPU_ADDRESS_MASK = 0x00ffffff;
CPU_SR_MASK = 0xf71f; /* T1 T0 S M -- I2 I1 I0 -- -- -- X N Z V C */
CYC_INSTRUCTION = m68ki_cycles[2];
CYC_EXCEPTION = m68ki_exception_cycle_table[2];
CYC_BCC_NOTAKE_B = -2;
CYC_BCC_NOTAKE_W = 0;
CYC_DBCC_F_NOEXP = 0;
CYC_DBCC_F_EXP = 4;
CYC_SCC_R_TRUE = 0;
CYC_MOVEM_W = 2;
CYC_MOVEM_L = 2;
CYC_SHIFT = 0;
CYC_RESET = 518;
return;
case M68K_CPU_TYPE_68020:
CPU_TYPE = CPU_TYPE_020;
CPU_ADDRESS_MASK = 0xffffffff;
CPU_SR_MASK = 0xf71f; /* T1 T0 S M -- I2 I1 I0 -- -- -- X N Z V C */
CYC_INSTRUCTION = m68ki_cycles[2];
CYC_EXCEPTION = m68ki_exception_cycle_table[2];
CYC_BCC_NOTAKE_B = -2;
CYC_BCC_NOTAKE_W = 0;
CYC_DBCC_F_NOEXP = 0;
CYC_DBCC_F_EXP = 4;
CYC_SCC_R_TRUE = 0;
CYC_MOVEM_W = 2;
CYC_MOVEM_L = 2;
CYC_SHIFT = 0;
CYC_RESET = 518;
return;
}
}
/* Execute some instructions until we use up num_cycles clock cycles */
/* ASG: removed per-instruction interrupt checks */
int m68k_execute(int num_cycles)
{
/* Make sure we're not stopped */
if(!CPU_STOPPED)
{
/* Set our pool of clock cycles available */
SET_CYCLES(num_cycles);
m68ki_initial_cycles = num_cycles;
/* ASG: update cycles */
USE_CYCLES(CPU_INT_CYCLES);
CPU_INT_CYCLES = 0;
/* Return point if we had an address error */
m68ki_set_address_error_trap(); /* auto-disable (see m68kcpu.h) */
/* Main loop. Keep going until we run out of clock cycles */
do
{
/* Set tracing accodring to T1. (T0 is done inside instruction) */
m68ki_trace_t1(); /* auto-disable (see m68kcpu.h) */
/* Set the address space for reads */
m68ki_use_data_space(); /* auto-disable (see m68kcpu.h) */
/* Call external hook to peek at CPU */
m68ki_instr_hook(); /* auto-disable (see m68kcpu.h) */
/* Record previous program counter */
REG_PPC = REG_PC;
/* Read an instruction and call its handler */
REG_IR = m68ki_read_imm_16();
m68ki_instruction_jump_table[REG_IR]();
USE_CYCLES(CYC_INSTRUCTION[REG_IR]);
/* Trace m68k_exception, if necessary */
m68ki_exception_if_trace(); /* auto-disable (see m68kcpu.h) */
} while(GET_CYCLES() > 0);
/* set previous PC to current PC for the next entry into the loop */
REG_PPC = REG_PC;
/* ASG: update cycles */
USE_CYCLES(CPU_INT_CYCLES);
CPU_INT_CYCLES = 0;
/* return how many clocks we used */
return m68ki_initial_cycles - GET_CYCLES();
}
/* We get here if the CPU is stopped or halted */
SET_CYCLES(0);
CPU_INT_CYCLES = 0;
return num_cycles;
}
int m68k_cycles_run(void)
{
return m68ki_initial_cycles - GET_CYCLES();
}
int m68k_cycles_remaining(void)
{
return GET_CYCLES();
}
/* Change the timeslice */
void m68k_modify_timeslice(int cycles)
{
m68ki_initial_cycles += cycles;
ADD_CYCLES(cycles);
}
void m68k_end_timeslice(void)
{
m68ki_initial_cycles = GET_CYCLES();
SET_CYCLES(0);
}
/* ASG: rewrote so that the int_level is a mask of the IPL0/IPL1/IPL2 bits */
/* KS: Modified so that IPL* bits match with mask positions in the SR
* and cleaned out remenants of the interrupt controller.
*/
void m68k_set_irq(unsigned int int_level)
{
uint old_level = CPU_INT_LEVEL;
CPU_INT_LEVEL = int_level << 8;
/* A transition from < 7 to 7 always interrupts (NMI) */
/* Note: Level 7 can also level trigger like a normal IRQ */
if(old_level != 0x0700 && CPU_INT_LEVEL == 0x0700)
m68ki_exception_interrupt(7); /* Edge triggered level 7 (NMI) */
else
m68ki_check_interrupts(); /* Level triggered (IRQ) */
}
void m68k_init(void)
{
static uint emulation_initialized = 0;
/* The first call to this function initializes the opcode handler jump table */
if(!emulation_initialized)
{
m68ki_build_opcode_table();
emulation_initialized = 1;
}
m68k_set_int_ack_callback(NULL);
m68k_set_bkpt_ack_callback(NULL);
m68k_set_reset_instr_callback(NULL);
m68k_set_pc_changed_callback(NULL);
m68k_set_fc_callback(NULL);
m68k_set_instr_hook_callback(NULL);
}
/* Pulse the RESET line on the CPU */
void m68k_pulse_reset(void)
{
/* Clear all stop levels and eat up all remaining cycles */
CPU_STOPPED = 0;
SET_CYCLES(0);
CPU_RUN_MODE = RUN_MODE_BERR_AERR_RESET;
CPU_INSTR_MODE = INSTRUCTION_YES;
/* Turn off tracing */
FLAG_T1 = FLAG_T0 = 0;
m68ki_clear_trace();
/* Interrupt mask to level 7 */
FLAG_INT_MASK = 0x0700;
/* Reset VBR */
REG_VBR = 0;
/* Go to supervisor mode */
m68ki_set_sm_flag(SFLAG_SET | MFLAG_CLEAR);
/* Invalidate the prefetch queue */
#if M68K_EMULATE_PREFETCH
/* Set to arbitrary number since our first fetch is from 0 */
CPU_PREF_ADDR = 0x1000;
#endif /* M68K_EMULATE_PREFETCH */
/* Read the initial stack pointer and program counter */
m68ki_jump(0);
REG_SP = m68ki_read_imm_32();
REG_PC = m68ki_read_imm_32();
m68ki_jump(REG_PC);
CPU_RUN_MODE = RUN_MODE_NORMAL;
}
/* Pulse the HALT line on the CPU */
void m68k_pulse_halt(void)
{
CPU_STOPPED |= STOP_LEVEL_HALT;
}
/* Get and set the current CPU context */
/* This is to allow for multiple CPUs */
unsigned int m68k_context_size()
{
return sizeof(m68ki_cpu_core);
}
unsigned int m68k_get_context(void* dst)
{
if(dst) *(m68ki_cpu_core*)dst = m68ki_cpu;
return sizeof(m68ki_cpu_core);
}
void m68k_set_context(void* src)
{
if(src) m68ki_cpu = *(m68ki_cpu_core*)src;
}
/* ======================================================================== */
/* ============================== MAME STUFF ============================== */
/* ======================================================================== */
#if M68K_COMPILE_FOR_MAME == OPT_ON
#include "state.h"
static struct {
UINT16 sr;
int stopped;
int halted;
} m68k_substate;
static void m68k_prepare_substate(void)
{
m68k_substate.sr = m68ki_get_sr();
m68k_substate.stopped = (CPU_STOPPED & STOP_LEVEL_STOP) != 0;
m68k_substate.halted = (CPU_STOPPED & STOP_LEVEL_HALT) != 0;
}
static void m68k_post_load(void)
{
m68ki_set_sr_noint_nosp(m68k_substate.sr);
CPU_STOPPED = m68k_substate.stopped ? STOP_LEVEL_STOP : 0
| m68k_substate.halted ? STOP_LEVEL_HALT : 0;
m68ki_jump(REG_PC);
}
void m68k_state_register(const char *type)
{
int cpu = cpu_getactivecpu();
state_save_register_UINT32(type, cpu, "D" , REG_D, 8);
state_save_register_UINT32(type, cpu, "A" , REG_A, 8);
state_save_register_UINT32(type, cpu, "PPC" , &REG_PPC, 1);
state_save_register_UINT32(type, cpu, "PC" , &REG_PC, 1);
state_save_register_UINT32(type, cpu, "USP" , &REG_USP, 1);
state_save_register_UINT32(type, cpu, "ISP" , &REG_ISP, 1);
state_save_register_UINT32(type, cpu, "MSP" , &REG_MSP, 1);
state_save_register_UINT32(type, cpu, "VBR" , &REG_VBR, 1);
state_save_register_UINT32(type, cpu, "SFC" , &REG_SFC, 1);
state_save_register_UINT32(type, cpu, "DFC" , &REG_DFC, 1);
state_save_register_UINT32(type, cpu, "CACR" , &REG_CACR, 1);
state_save_register_UINT32(type, cpu, "CAAR" , &REG_CAAR, 1);
state_save_register_UINT16(type, cpu, "SR" , &m68k_substate.sr, 1);
state_save_register_UINT32(type, cpu, "INT_LEVEL" , &CPU_INT_LEVEL, 1);
state_save_register_UINT32(type, cpu, "INT_CYCLES", &CPU_INT_CYCLES, 1);
state_save_register_int (type, cpu, "STOPPED" , &m68k_substate.stopped);
state_save_register_int (type, cpu, "HALTED" , &m68k_substate.halted);
state_save_register_UINT32(type, cpu, "PREF_ADDR" , &CPU_PREF_ADDR, 1);
state_save_register_UINT32(type, cpu, "PREF_DATA" , &CPU_PREF_DATA, 1);
state_save_register_func_presave(m68k_prepare_substate);
state_save_register_func_postload(m68k_post_load);
}
#endif /* M68K_COMPILE_FOR_MAME */
/* ======================================================================== */
/* ============================== END OF FILE ============================= */
/* ======================================================================== */
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